High-speed data cable assembly

High-speed data cable assemblies are designed with advanced materials and construction techniques to achieve optimal electrical performance and signal integrity at high frequencies.


Our cabled connectors utilize data protocols that allow for efficient data transmission, reducing latency, supporting advanced applications, and enabling the integration of emerging technologies across multiple industries.


This is particularly important for connectors used in applications such as high-definition video, complex control systems, and industrial IoT.

Try our data protocols solutions

Fischer Connectors’ solutions are compatible with most popular data protocols, ensuring high-quality data transmission for digital signals. Our expert team has selected and created a range of sample cable assemblies designed to help you qualify the right solution according to your data transmission requirements.

USB 2.0
  • Up to 480 Mbit/s
  • IP68/IP69 sealing and hermetic
  • Up to 10,000 mating cycles
USB 3.2
  • Up to 10 Gbit/s
  • IP68 sealing
  • Up to 5,000 mating cycles
  • Up to 10 Gbit/s
  • IP68/IP69 sealing and hermetic
  • Up to 10,000 mating cycles
Single Pair Ethernet
  • Up to 1 Gbit/s
  • IP68/IP69 sealing
  • Up to 10,000 mating cycles
  • Up to 18 Gbit/s
  • IP68/IP69 sealing and hermetic
  • Up to 10,000 mating cycles

Connector configurations

Choose your connector on the other end among a wide selection from the following series: FISCHER MINIMAX™ SERIES, FISCHER ULTIMATE™ SERIES, FISCHER CORE™ SERIES.

Explore our capabilities in high-speed connectivity


High-speed data connectors

These connectors are crucial components in electronic devices and systems where rapid and reliable data transmission is paramount.


Signal integrity

This document aims to help engineers optimize their products. It explains high-speed data transmission protocols, where problems may arise, and how to design connectors for high-speed data transmission.

Describe us your needs in high-speed data cable assembly.